Conveying mechanism



Y SePt- 14, 1948. E. MARTIN 2,449,240

CONVEYING MCHANISM Filed July 19, 194e; v 4 sheets-sheet 1 INVENTOR. Eugene Marti/1 ATTORNEY Sept. 14, 1948. E..MART|N CONVEYING MECHANISM 4 Sheets-Sheet 2 Filed July 19, 1946 IN VEN TOR. Eugene Martin 4 Sheets-Sheet 3 Filed July 19, 1946 IN VEN TOR. EugeneMartz'n BY ATTOR NEY Sept. 14, 1948. E. MARTIN 2,4491240 CONVEYING MECHANISM Filled July 19. 194e 4 sheets-sheet 4 Fig. 6

IN VEN TOR: Eugene Martan- ATTORNEY Patented Sept. 14, 1948 f CONVEYING MECHANISM Eugene Martin, WesleyvillaPa., assignor to The Standard Stoker Company, Incorporated, a corporation of Delaware application July 19, 194e, sen-a1 No. 684,862

12 Claims.

i l l This invention relates to conveying mechanism including a conveyor, screw mounted in a trough for the conveyance of material `therethrough, a gearbox atthe rear of the trough to provide an improved drive connection in which such stresses on the drive shaft are relieved.

Still another object` of the invention isto provide an improved conveyor trough and gear cashousing suitable gearing and a driveshaft, and `5 ine incorporating a novel mounting and beara drive connection between the drive shaft and ing assembly for the adjacent ends of a conveyor screw conveyor. screw shaft and the drive shaft for the conveyor In such conveying mechanism any force transscrew. j 1 mitted from the screwconveyor to the drive shaft With these and other objects in view, the invengiving rise to an axial angular strain on the tion consists of the features of construction, comlatter will cause uneven and excessive wear on oinatielfl` und arrangement 0f Darts, hereinafter the bearings and the shaft and the resulting fully described and claimed, reference beinghad cooking of the shaft causes `,binding `thereof and t0 the aompanying drawings, in which uneven and excessive wear on thel gear teeth of Figure l isa central longitudinal vertical secthe gearing with consequent failure of the drive tion through a Portion "of a locomotive tender mechanism.` It is, therefore, an important object with the rearward portion of a Stoker trough and of my invention to provide a novel drive conts gear bCX applied thereto beneath the tender nection in conveying mechanism of the type defuel `bin and sho-wn in elevation; Y scribed `which will relieve the drive shaft of axial Figure 2 is a plan .view of the portion of the angular strains and minimizefailure ofthe drive Stoker trough and gear box shown inFigure 1; mechanism, Figure 3 is a sectional View taken on the line Another object of the invention is to provide, 3 3 of Figure 2; A 1 l in a conveying system ofthe type described, an `Figures 4, 5, 6 and `7` are sectional views taken improved drive and bearing arrangement and on the lines 4 4, 5-5, 6-6 and 11, respecconstruction eliminating transmission of stresses tively, of Figure 3; to the drive shaft incident to forward and rear- Figure 7A is a View of the driving `connection ward thrust of the conveyor screw resulting from shown in Figure 7 but with the axes of the shafts its conveyance of material in Aa forward and in misalinement; and 1 f reverse direction, Figure 8 is a central longitudinal vertical secstiu `another object of the invention is to protion through the rearward portion of` a Stoker vide an improved drive connection in a conveying trough and its gear box showing a modied form mechanism of the type described above, which of the invention. will eliminate the transmission of stresses to the In thedraWingS, the invention is -llustratedas drive shaft incident to slight misalinement of applied to the tender unit ofa locomotive stoker. the drive shaft and the conveyor screw or the Referring now to Figuresl to 7, inclusivashowbearings therefor. ing a preferred embodiment of the invention, It has been found desirable, in conveying mech- Ithe tender, represented by the letter T iii Figure anism ofthe type described, to eliminate bearl, includes the base frame l0 upon which iS S1113- ings for the conveyor screw within the passageported a superstructure comprising the fuel corn-` way for the material conveyed, and to provide 10 partment or bin H Vand the water compartment a single bearing at the extreme rearward end of i2. A. series of slidable plates I3 control the the conveyor screw. l In such constructions it has opening between the bin H and the Stoker conbeen customary to provide for limited normal veyor trough I4, through which opening coal axial. angular movement of the conveyor screw Passes from the bin t0 the trough about its journaled end relative to the drive-shaft. `The trough I4, as bestshown in Figure 4, is However, should an abnormal force be applied formed with straight upper sides` l5 and I6 and against the screw conveyor forward of its jouran approximately V-shaped lowerportion I1. A naled end and in a direction transverse with recasting is, including a trough shaped portion `ISI spect to the axis thereof, as occurs at times when and a gear box it, forms the rearward end of large lumps of `material are conveyed or when the trough Iii. Therearward end of the gear box relatively large pieces of foreign material are en- Z isprovided with a detachable zcover 2|, which countered, the limited axial angular movement when removed, allows access to the .interior of of the conveyor screw is insufficient and an axial the gear box.` t 1 angular stress is exerted `on the drive shaft. `It Coal is advanced through the` trough i4 by a is, therefore, another object of this invention, screw conveyor 22 which is operated bya` suitable at its forward end in a bearing 262 formed withthe front Wall 27'of the gear box 20 and at its rearward end in a bearing 28 formed with the gear box cover 2|. The shaft 25 is provided with a pinion 29 which meshes with and operatesfthe gear 30.

The gear 39 is mounted on" agshafti'l arranged;

to be normally in axial alinement' with the conveyor screw 22. At its rearward end, the shaft 3| is mounted in a bearing 32.2 formed with thegear box cover 2l, and at its forward end itis mounted, in a manner to,be described, in a bearing 33 formed with thel front wall 21 of the gear box 20. Y

In'sconveyi'ngmaterial', itl is desirable that' the passageway` forthe material' be freefrom bearings as it has been found that bearings for the conveyorI screw; when placedwithirr the vpassageway-'for material, obstruct the free conveyancev thereof;V When friable material' is conveyed, the bearings also cause excessive breakdown ini the size -ofr the material-conveyed, whichin many instances-isundesirable; as inthe conveyance of coall in a locomotive'stoker; It has been usual, therefore, to provide but one-bearingl for the conveyor screw, atene-extreme end thereof, and of course; ini such an arrangementthe screw conveyorl` will-havey a certain yamount of pivotal or angular4 movement about itsjournaled end. It is; furthermore,- desira'bleto have some flexibility of movement in theconveyorfscrew tofacilitate the passagethrough the trough of foreign materials, such asv railroad spikes, trampiron, etc., whichl frequently# find their way into the; coallbin of a locomotive tender.

Because ofL the l axialy angular movement of the conveyor'screwaboutA its journaled'end; yitis necessary that a certain amount of'flexibilityvbe provided'between-the driven endkv portionn of the conveyorr screw andi the bearing therefor and the drive mechanism. Since, in'- the construction showrr in the-drawings,` thetrough I4l is^rigidly mounted on the tender frame I9', itis evident that inthe absence of sucha flexible connectionrex cessive wear on the bearings will'occur; and'with suchwear the misalinemen-t# ofthe drive vshaft willr cause exeessivelwear on theV teeth ofthe gear 30-and1pinion 29. Ihave devised a-novel, compact andL efcient construction which provides forfthis-iflexibility, it also relieves thedriveshaft 3Ii'and its gear (il)` from the rearward thrust exerted against the screw conveyor 22 in its conveya-nce of-'coaland from the forward thrust of the screw conveyoriwhenthe latter is reversed; iti provides ample bearing surface, andl efficient meansvfor lubrication ofthe bearings.'-

A housing 34, formed'with the front wall 2'I of thegear boxprojects inwardly of the trough i4 andV isarranged to receivea bearing 35, the bore of which isnormally concentric with` the axis of thefshaft' 34; Ay plurality of bolts 36'extending throughthecircumferential flange 31 of'bearing 35l and threaded intothe enlarged free endf33 off the housing- 34, rigidlysecure thebearing 35 tothe housing 344 Rotatably mounted in the bearings 3^3fand 35;' respectively',A are cci-axiallyl arranged sleeves 39 and 4U; the' adjacent ends vof which( are provided' with loosely intertted tongues, as best shown in Figure 7, the sleeve 39 having diametrically opposite tongues 4l and 42 and the sleeve 4U having diametrically opposite tongues 43 and 44. The

outside surface of each tongue is formed on a radius, preferably the same radius as the periphery :of the sleeve with which it is formed. The=inside-surface of eachltongue is flat; as shown in Figure 7, the inside surfaces of each pair of diametrically opposite tongues being parallel. The flat inside surfaces of the intertted tongues deflnexaspace in which is received the block 45, forming a drive connection between the sleeves 39,fand4ll.` is-.shownA in Figure 7, the sides of the block 45't closely against theinside surfaces of the tongues 4l, 42, 43 and 44, thereby preventing relative rotationalmovement between the sleeves 39 and 40.

Rotation is imparted to the sleeve 39 through engagement of the key 46, formed with the driving shaft?, I-, in` a keywayy (not shownl formed in thesleeve-S'B, andas described above; rotat-ionof the sleeve 39 istransmitted to sleeve 4llthrough engagement of the-block-45 with-the tongues-415, 4.2L, 43and4f4l An intermediate shaft 43, polygonal'- in trans'- verse cross section, is disposed between-landinore mallyfinA axialv alinement with the' driving; shaft 3l andthe conveyor screw 22; andi is'v arranged with-its forward1 end' extending into the polyg-l onal socket @Si formed in thefrearward end of'tlie conveyor screw 2'2fandits rearward endextending into the polygonal bore of the sleevel 4U: En'- gagementofrthe polygonal shaft 43 initl'iepol'yg onall socket 49'-and polygonal' bore offthe: sleeve 40lforms a driveconnection between thefsleevelfi and'conveyor screw 22. As shown in l Figure 3;-

the forward end' Ofintermediate: shaft 48flfits loosely in the socketedl end of f conveyorf screw:y 232i, providing forv limited angular axial'y movement of the conveyor screw 22 about its rearward'end.

Referringftoligures 3; 'T andA, iti will? be seenutliatl driving relation-between the intermediateishaftrfJS-and driving shaft 31 -isimaint'ained evenv when these shafts', are not in alinement and withoutstresses:being.` set up in eitherf shaft becauseof such misalinement.v For example,i if thezlettery a: vin Figure 'TArepresents-the axis :of the shaft 3l and y represents the axisioff the shaft; driving relation Atherebetween is .maintainedy since the-blockcllis freely=slidable along the opposing inside surfaces of fthetongues 4i, 42 and' 43'.; 4'4 of-the sleevesBSl and" 40' respectively. Since the construction described permits: free f driving relation between shaft'sl'i and llilfwheny the-latter are in misalinement, it will be seenzthatiitcompensates for inisalinementoflthe bearingse33 and or sleeves- 39 and' 40; eitherxasforiginallyassembled'or resultingffrom uneven wear. Further.-l more, theA separatel intermediate shaft andthe flexiblev drive connectionl between the sleeves and 49; as-described above, inhibits the transfer of'stressestoy the driving-shaft 31 incidentito axial angular force on the screw conveyor: 22in..excess ofv thatwhi'ch the loosey fitA betweenv thel inter:- mediate shaft' 48 andthe screwconveyors22fwill compensate for.`

Belts 50` and 51.* extend".E through longitudinally spaced, perpendicularly related` openingsrin'v the rearward endoffthe conveyorF screwfshaftandithe forward lend of-'theshaft 48 to -preventdisengagement of1 the conveyor` screw 22`ffrom^its= operative relation' with the shaftA 485 The openingsx in shaft48'* are,` ofl ay diameter to, provide a loose''t for' the bolts" 50' and" 5l 'and'r are" alsoi longitudif nally elongated, as shownv at 52 and 53, for a purpose hereinafter described. The loose fit of the bolts 58 and 5| in the intermediate shaft 48, together with the loose fit of the intermediate shaft 48 in the socketed portion of the conveyor screw `22 described above, is sufficient to allow normal axial angular movement of the conveyor screw 22 to take place without binding action between the parts. i Y i A shoulder 54 of the sleeve 48 abuts a shoulder 55 of thebearing 35 preventing forward movement of the sleeve 48 and the pin 58 carried by the sleeve 48 and extending through the intermediate shaft 48 together with the bolts 58, 5| extending through the conveyor screw shaft and intermediate shaft 48, prevents forward movement or disengagement of conveyor screw 22. This construction together with the fact that intermediate shaft 48 is separate from driving shaft 3|, it is evident, relieves the shaft 3| of any strain incident to forward thrust of the conveyor screw 22, occurring when the conveyor screw is reversed.

Rearward thrust of the conveyor screw 22 incident to its conveyance of coal` is transmitted through the bearing 35 to the casting I8 by a thrust washer 51 mounted on intermediate shaft 48 adjacent therearward end of the conveyor screw 22 and arranged to rotate with the shaft 48, and a thrust washer 58 mounted on the shaft 48 between the thrust washer 51 and the outer end of the bearing 35. The thrust washer 58 is provided with a plurality of lugs 59 arranged to be received in slots 68 formed in the bearing 35, as best `shown in Figure 5. As wear between the washers 51 and 58 occurs and the conveyor screw moves correspondingly rearward, the slots 52, 53`

previously described, permit deeperpenetration of the forward end of shaft 48 into the socket 49 of conveyor screw 22. It is apparent, therefore, that no thrust is transmitted through the shaft 48 to the sleeve 48 nor to the block 45 and driving shaft 3|.- i

A protecting cover 8| is` securely attached, as by welding, to the periphery of a flange 82, formed with the rearward end of the shaft of conveyor screw 22, and projects rearwardly to embrace the forward end of the bearing 35. The passages 63 and 84 in 'the housingf34 and bearing 35, respectively, provide for the fiow of lubricant from the gear casing 28, which forms a lubricant reservoir, to the adjacent surfaces of the bearing 35 and sleeve 48. Passages 85 and 88 in the bearings 32 and 33, respectively, provide for flow of lubricant from the gear casing 28 to the rearward end of shaft 3| and the sleeve 39, respectively.

From the foregoing it is evident that the driving shaft 3| is relieved of all stresses under any operating conditions except for the torsional stress resulting from driving the conveyor screw 22.

In Figure 8 there is shown a modified form of the drive connection between the drive shaft and the conveyor screw. The trough 18, end casting 1I, gear box 12 including itsfront wall 13 and cover 1'4, and screwconveyor 15 are the same or substantially similar to the corresponding elements of the preferred form of the invention.

The gear 18 is mounted on the drive shaft 11 which is journaled in the bearings 18 and 19 formed with the gear box front wall 13 and cover 14, respectively. A housing 88 formed with the front wall 13 of the gear box 12 projects inwardly of thetrough and is arranged toireceive a bearing8|jthe bore of which is normally concentric with the axis of the shaft 11. plurality of bolts 82 extending through the circumferential flange 83 of bearing 8| and threadedinto the enlarged free end 84 of the housing 88,"

rigidly secure the bearing 8| to the housing 88. Mounted in the bearing 8| is a sleeve 85.

A polygonal extension 88 of the shaft 11 enters a corresponding bore in the sleeve 85, forming a drive connection between the shaft 11 and` sleeve 85. An intermediate shaft 81, polygonal in transverse cross section, is arranged with -its rearward end extending into the sleeve 85 and its forward end entering the polygonal socket 88 in` in the socketed end of conveyor screw 15, pro-l viding for limited angular axial movement of the conveyor screw 15 about its rearward end. Furthermore, the separate intermediate shaft 81 between the drive shaft 11 and the screw conveyor 15 eliminates the transfer of transverse strains to the drive shaft 11 incident to axial angular force on the conveyor screw 15 inexcess of that which the loose t between the intermediate shaft 81 and the conveyor screw15 will com-` pensate for. A loose fit is provided between the shaft extension 86 and the sleeve.` 85 to compensate for slight misalinement of the bearings `18, 19 and 8|, either as originally assembled or when caused by uneven wear in service, thereby elimi-` nating transverse strains on the shaft 11.

Bolts 89 and 90, carried by the conveyor screw 15 pass loosely through the intermediate shaft 81 to prevent disengagement of the conveyor screw 15 from its operative relation with the shaft 81. The loose fit betweenthebolts 89 and 98 and intermediate shaft 81, together with the loose t between the shaft 81 and the socketed portion of the conveyor screw 15 described above, is sufficient to allow normal axial angular move ment of the screw conveyor 15 to take place without binding action `between the parts. A pin9| carried by the sleeve 85 and extending through the intermediate shaft 81, together with. the bolts 89, 98 carried by the conveyor screw 15 and extending through the intermediate shaft81, prevent displacement of the conveyor screw 15 in a forward direction, and since the driveshaft 11 is separate from intermediate shaft 81`and its extension 86 is loosely mounted in the sleeve 85, it is relieved of any strain incident tc forward thrust of the conveyor screw 15. i

Rearward `thrust of the conveyor `screw 15, incidentto its conveyance of coal is transmitted through the bearing 8| to the casting 1l `by a thrust washer 92 mounted on intermediate shaft 81 adjacent the rearward end of the conveyor screw and arranged to rotate with the shaft 81, and a thrust washer 93 mounted on theshaft 81 betweeny the thrust washerY 92 and the outer end of the bearing 8|. The thrust washer :93 is provided with a plurality of lugs 94 arranged to be received in slots 95 formed inthe bearing 8| in the same manner as in the preferred form of the invention. It is evident then, that the shaft 11 is` relieved of any strain incidentto rearward thrust of the conveyor screw 15.

A protecting` cover 96 is securely attached to the rearward end of the conveyor"screwi15 by means of the bolt 98, the cover flaring rearwardly and` embracing the` forward endof the bearing Mi, The. passages. 9.1 and-,Sfin thethonsingg; andabearing 8l, respectively; `provide-,for tha-flow; of..'lubricant. from the gear-:casingi'i 2; .which forms afrlubricant reservoir; to'fthe adjacentgsurf-aces of. the bearing 8|@` and sleevef85.. Rassag-es" and IBO, resp,ectively provide for: flow' of; lubricant' from the gear; casing '12, totheiportionsgof the shaft'. '1.1. mountedlin the bearings'landa'I'9-,',re. spectiveLy.`

Iclaim:' Y g 1. AIn a conveying systeme:conveyorscrema driving shaft: andnanlintermediate-shaftbetween and. normallyv inf axial. alinement: with saidi con,- veyor, screw.I and driving, shaft a: loose. driving connection. between. the; adjacent ends. ci said conveyor: screw andfintermedate. shaft providing for: limited: axial. misalinement therebetweeni and. limited angular movementrofzsaid; conveyor screw about `its driven end; .abearingra sleeverotatably mounted'. in' said bearing., said; sleeve receiving the'v other.' end' of; saidintermediate.' shaft',` said sleeveandyintermediateshafttbeingfarranged.;for rotationz one',v with; the. other, and a a'.. drive con'u ne'ction 'oetweenisaidsleevezzand said drivingshait providingiforflimited axial misalinement'between saldi intermediate and" driving: shafts.:

. 2.'. Inga;conveying?v system, ai conveyor screw, a drivingshaft and. an intermediate shaft between and normally'in.axialalinementwith said con- Veyol screw and'4 driving' shaft, az. loose.. driving. connection between. the;- adjacent. ends off; said conveyor screw. andintermediate.' shaft providing for limited.; axial. misalinement' therehetweenaand limited angular. movement'.v of.. saidv conveyor screw. aboutfits drivenen'dra bearing, a.: sleeve rotatablyv mounted lin said; bearing;saidsleeve. receivingthe, other end .ofsaid intermediate shaft, said sleeve and' intermediates,shaft'` being ar.'- ranged for rotation. one with.thev other, andra drive connectionv between said: sleeve.: and said drivingI shaft providing' for limited :axial misaline.- ment. between said.. intermediate and; driving shafts andv means ior, transmitting; the. rearward thrust ofsaid conveyor.I screw Ato said. bearing,y

3; .In a conveying system, a conduit, aconveyor screw in said. conduit,ua gearv casingjforming the rear of said conduit,.a driving; shaft-:mountedin said casinan intermediate.- shaft betweensaid conveyor screw-andsaidz driving shaft, ahousing formed-with said gear casing and extending into saidA` conduit, a. bearing secured to i said` housing, said' bearing having: a cylindrical bore, `a cylindrical sleeve rotatably mounted in-` saidbearing, said; sleeve receivingthe rearward end of said intermediate shaft, a. drive. connection between saidrsleeve andsaid intermediate.` shaft, adrive connection between-said sleeve andfsaid. driving shaft andmeansiproviding adrivo connection betweenrthe adjacent ends. of., said intermediate lshaftv and vsaidconveyor screw..

ll.V Ina. conveyingV system, a. conduit, a. conveyorscrew in saidcOnduit, a gear, casing form.- ing. ther rear. of. said` conduit, a. driving, shaftinsaid casing,. an. intermediate shaft.. between .said conveyor screw andA saiddrivingshaft, a. housing formed with .saidgean casing. andl extending into, saidcond'uit, abearing secnredto said housing. without. said. gear casingA andv Va.4 bearing formedwithinsaidgear casing, a sleeverotataf bly mountedin each of'saidbearingsthe' adjacent. ends. of .said intermediate shait andy said driving shaftV being'received'l in said sleeves,vre spectively; ands'connected for" rotation therewith, means rprovidingxa drive connection betweensaid Sleeves; and meansr providinga'- drive'connection betweenzzsaid intermediate'ishaft and, seidl-.scx'eviy conveyor.` n n 5. In a conveyingsystem,a' conduit,aconveyorf` screw insaid conduit, a gearcasingformingtha rear of said'conduit, adrivingshaftin saidfcaseing; an intermediate; shaftbetweenfsaid conveyorv screwl and said. driving shaft, a` housing., formed with said. gear casing and extending. intol said. conduit, a bearing secured to saidhousingfwithout said gear casing and abearing formedwithin said gearcasing, asleeve rotatablyv mounted in eachfof said bearings; the adjacent ends'of said intermediate'- shaft'. and; saiddriving'` shaftl being-f received insaid sleeves, respectively, -andfconrv nected for rotationv therewith, means providinggav drive` connection between said sleeves, means providingadrive connection between'said'A intere mediate shaft andy said. screw.v conveyor, said housing andziirstf, named bearing.; andsaidfse'cf ond` named" bearing.` being' each" provided i with a, passage opening' at.V one end into; said gear: case ing and at the other. endfintothe. bore of are.` spective bearing for passage of lubricant.. from said gear casing; to -a-.respective sleeve;

6." vA drive connection between a. drivingshaft anda conveyor screw, including an intermediate shaft betweeniand normallyl in axialalinement with said driving shaft: and conveyor screw, a bea-ring for each of the adjacent endsf of said intermediate and. driving shafts; a,- sleeve: rotataf blymounted in each. of said.bearingsthe respective adiacenttends of'saidintermediate and driving.; shafts vbeing'feachreceived in 1a' respective sleeve and arranged for rotation: therewithsaid sleeves each having a pair of diametrically opposite tongues atf their adjacent ends loosely. interttedat approximately righte anglesto. each other, a coupling lblockV within f andfengaginggsaid intertted tongues' to form av drivev connection therebetween, said coupling block. being slidab'le with respect to-.each pair of opposed tongues in adirection. at rightangles with respect tothe axes of said sleeves to maintain said driveconnection upon limited misalinementy of; said. shafts,

. and means-providing a looseftting driveY con.-

nection between the. adjacent ends'ofsaid' intermediate shaftv and` saidiconveyor. screw.

7. A- drive connection betweenf a.. driving: shaft and a conveyor.V screw,gincluding anintermediate shaft between. and normally inaxialalinement with. said driving shaft arielV conveyor'v screw a bearing for'eachfofthe adjacent ends of saidintermediate and: driving, shafts, arr cylindrical sleeve: rotatably; mounted in each ofy said" bearings,;the respectivev adj acent; ends of: said4 inter. mediate and` drivingzshafts being` each received in aV respective.' sleeve. and'.` arranged: for rotation therewith; saidsleeves each .havinga pair ofdiametricallyopposite. tongues" at: their adjacent ends loosely' interttedat approximately right angles to each other, a coupling block within and engaging saidinterfitteditongues'to form a' drive connection therebetween, said.;coupling block being slidable with'. respectfto eachpairof opposed. tongues kin a. direction at` right angles: with re.- spect'z'to the axes of saidsleevesvto maintainlsaid drive' connection upon' limited misalinement of said shafts,',means providing-a loose-tting-drive connectionv between the. adjacent: ends, of.. said intermediate shaft and-said conveyor screw, and means'- for' transmitting, the thrust, of said con-l veyor. screw toftherbearingfor saidaintermediate sha-ft:

8.. A drivefconnection between 1 aJ driving. shaft and*aidriven.;shaftzincludinga sleevefoneachlof the adjacent ends of said shafts, each shaft and its respective sleeve being arranged for rotation one with the other, said sleeves each having a pair of diametrically opposite tongues at their respective adjacent ends loosely intertted at approximately right angles to each other, a ycoupling block within and engaging said interfltted tongues to form a drive connection there-between, said coupling block being slidable with respect to each pair of opposed tongues in a direction at right angles with respect to the axes of said sleeves to maintain said drive connection upon limited axial misalinement of said shafts.

9. In a conveying system, a conduit, a conveyor screw in said conduit, a gear casing forming the rear of said conduit, a driving shaft mounted in said casing and extending forwardly therethrough, an intermediate shaft between said conveyor screw and said driving shaft, a housing formed with said gear casing and extending into said conduit, a bearing secured to said housing, said bearing having a cylindrical bore, a cylindrical sleeve rotatably mounted in said bearing, said sleeve receiving the adjacent ends of Said intermediate shaft and driving shaft extension and forming a drive connection therebetween, and means providing a drive connection between the adjacent ends of said intermediate shaft `and said conveyor screw.

10. In a conveying system, a conduit, a conveyor screw in said conduit, a gear casing forming the rear of t said conduit, a driving shaft mounted in said casing and extending forwardly therethrough, an intermediate shaft between said conveyor screw and said driving shaft, a housing formed with said gear casing and extending into said conduit, a bearing secured to said housing, said bearing having a cylindrical bore, a cylindrie cal sleeve rotatably mounted in said bearing, said sleeve receiving the adjacent ends of said intermediate shaft and driving shaft extension and forming a drive connection therebetween, means providing a drive connection between the adjacent ends of said intermediate shaft and said conveyor screw, and said housing and bearing being provided with a passage opening at one end into said gear casing and at the other end into the bore of said bearing for passage of lubricant from said gear casing to said sleeve.

11. A drive connection between a driving shaft and a conveyor screw, including an intermediate shaft between and normally in axial alinement with said driving shaft and conveyor screw, a bearing, a sleeve rotatably mounted in said bearing, said sleeve receiving the adjacent ends of said intermediate and driving shafts and forming a drive connection therebetween, the said end of said driving shaft being loosely received in said sleeve, and means providing a loose fitting drive connection between the adjacent ends of said intermediate shaft and said conveyor screw.

12. A drive connection between a driving shaft and a conveyor screw, including an intermediate shaft between and normally in axial alinement with said driving shaft and conveyor screw, a bearing, a cylindrical sleeve rotatably mounted in said bearing, said sleeve receiving the adjacent ends of said intermediate and driving shafts and forming a drive connection therebetween, the said end of said driving shaft being loosely received in said sleeve, means providing a loose fitting drive connection between the adjacent ends of s'aid intermediate shaft and said conveyor screw, and means for transmitting the thrust of said conveyor screw to said bearing. 

